#!/bin/bash
# Copyright (c) 1998 Lawrence Livermore National Security, LLC and other
# HYPRE Project Developers. See the top-level COPYRIGHT file for details.
#
# SPDX-License-Identifier: (Apache-2.0 OR MIT)

#=============================================================================
# ij: Run default case with different solvers
#    1: BoomerAMG_PCG
#    2: DS_PCG
#    3: BoomerAMG_GMRES
#    4: DS_GMRES
#    5: BoomerAMG_CGNR
#    6: DS_CGNR
#    7: PILUT_GMRES
#    8: ParaSails_PCG
#   16: BoomerAMG_COGMRES
#   17: DS_COGMRES
#   20: Hybrid_PCG

# ij: test systems AMG
#       unknown approach
#       hybrid approach with block smoother
#       nodal approach
#       more solvers:
#        51: BoomerAMG_LGMRES
#        50: DS_LGMRES
#        61: BoomerAMG_FlexGMRES
#        60: DS_FlexGMRES
#
#=============================================================================

mpirun -np 2 ./ij -solver 1 -rhsrand > solvers.out.0
mpirun -np 2 ./ij -solver 2 -rhsrand > solvers.out.1
mpirun -np 2 ./ij -solver 3 -rhsrand > solvers.out.2
mpirun -np 2 ./ij -solver 4 -rhsrand > solvers.out.3
mpirun -np 2 ./ij -solver 5 -rhsrand -w 0.67 -ns 2 > solvers.out.4
mpirun -np 2 ./ij -solver 6 -rhsrand > solvers.out.5
#mpirun -np 2 ./ij -solver 7 -rhsrand > solvers.out.6
#mpirun -np 2 ./ij -solver 8 -rhsrand > solvers.out.7
mpirun -np 2 ./ij -solver 20 -rhsrand > solvers.out.8
mpirun -np 2 ./ij -solver 20 -cf 0.5 -rhsrand > solvers.out.9
mpirun -np 2 ./ij -solver 20 -cf 0.5 -rhsrand -solver_type 2 > solvers.out.10
mpirun -np 2 ./ij -solver 20 -cf 0.5 -rhsrand -solver_type 3 > solvers.out.11
mpirun -np 2 ./ij -solver 16 -rhsrand > solvers.out.12
mpirun -np 2 ./ij -solver 17 -rhsrand > solvers.out.13
mpirun -np 2 ./ij -solver 17 -rhsrand -cgs 2 > solvers.out.14
mpirun -np 2 ./ij -solver 17 -rhsrand -cgs 2 -unroll 8 > solvers.out.15
mpirun -np 2 ./ij -solver 17 -rhsrand -unroll 4 > solvers.out.16
mpirun -np 2 ./ij -solver 3 -rhsrand -check_residual > solvers.out.17
mpirun -np 2 ./ij -solver 4 -rhsrand -check_residual > solvers.out.18

mpirun -np 3 ./ij -n 23 29 31 -solver 1 -rhsrand -precon_cycles 2 -rlx 18 > solvers.out.19
mpirun -np 4 ./ij -n 23 29 31 -solver 3 -rhsrand -precon_cycles 3 -rlx 18 > solvers.out.20
mpirun -np 2 ./ij -n 23 29 31 -solver 0 -rhsrand -mu 2            -rlx 18 > solvers.out.21
mpirun -np 2 ./ij -n 23 29 31 -solver 3 -rhsrand -mu 2            -rlx 18 > solvers.out.22
mpirun -np 2 ./ij -n 23 29 31 -solver 0 -rhsrand -fmg             -rlx 18 > solvers.out.23
mpirun -np 2 ./ij -n 23 29 31 -solver 3 -rhsrand -fmg             -rlx 18 > solvers.out.24
#flexible CG vs CG; AMG with CG smoother
mpirun -np 2 ./ij -solver 1 -rlx 15 -flex 1 > solvers.out.25
mpirun -np 2 ./ij -solver 1 -rlx 15 > solvers.out.26

#systems AMG run ...unknown approach, hybrid approach, nodal approach
mpirun -np 2 ./ij -n 20 20 20 -sysL 2 -nf 2 > solvers.out.sysu
mpirun -np 2 ./ij -n 20 20 20 -sysL 2 -nf 2 -nodal 1 -smtype 6 -smlv 10 -dom 1 -ov 0 > solvers.out.sysh
mpirun -np 2 ./ij -n 20 20 20 -sysL 2 -nf 2 -interptype 10 -Pmx 6 > solvers.out.sysn

#systems AMG using unknown approach and filtering
mpirun -np 1 ./ij -solver 1 -n 8 8 8 -sysL 2 -nf 2 -ff 1 > solvers.out.27
mpirun -np 1 ./ij -solver 1 -n 8 8 8 -sysL 3 -nf 3 -ff 1 > solvers.out.28
mpirun -np 4 ./ij -solver 1 -n 8 8 8 -sysL 2 -nf 2 -ff 1 > solvers.out.29
mpirun -np 4 ./ij -solver 1 -n 8 8 8 -sysL 3 -nf 3 -ff 1 > solvers.out.30

#LGMRS and FlexGMRES
mpirun -np 2 ./ij -solver 50 -rhsrand > solvers.out.101
mpirun -np 2 ./ij -solver 51 -rhsrand > solvers.out.102
mpirun -np 2 ./ij -solver 60 -rhsrand > solvers.out.103
mpirun -np 2 ./ij -solver 61 -rhsrand > solvers.out.104

#agglomerated coarse grid solve
mpirun -np 8 ./ij -n 80 80 80 -P 2 2 2 -agg_nl 1 -seq_th 100 -solver 1 -rlx 6 > solvers.out.105
mpirun -np 8 ./ij -n 40 40 40 -P 2 2 2 -agg_nl 1 -seq_th 100 -solver 1 -rlx 6 -sysL 3 -nf 3 > solvers.out.107

#redundant coarse grid solve
mpirun -np 8 ./ij -n 80 80 80 -P 2 2 2 -agg_nl 1 -seq_th 100 -solver 1 -rlx 6 -red 1 > solvers.out.106
mpirun -np 8 ./ij -n 40 40 40 -P 2 2 2 -agg_nl 1 -seq_th 100 -solver 1 -rlx 6 -sysL 3 -nf 3 -red 1 > solvers.out.108

#additive cycles
mpirun -np 2 ./ij -n 20 20 20 -P 2 1 1 -agg_nl 1 -solver 1 -CF 0 -rlx 0 -w 0.7 -rlx_coarse 0 -ns_coarse 2 > solvers.out.109
mpirun -np 2 ./ij -n 20 20 20 -P 2 1 1 -agg_nl 1 -solver 1 -CF 0 -add_rlx 0 -add_w 0.7 -mult_add 0 > solvers.out.110
mpirun -np 4 ./ij -n 20 20 20 -P 2 2 1 -agg_nl 1 -solver 1 -simple 0 > solvers.out.111
mpirun -np 8 ./ij -n 20 20 20 -P 2 2 2 -agg_nl 1 -solver 3 -additive 1 > solvers.out.112
mpirun -np 8 ./ij -n 20 20 20 -P 2 2 2 -agg_nl 1 -solver 3 -mult_add 0 -add_Pmx 5 > solvers.out.113
mpirun -np 8 ./ij -n 20 20 20 -P 2 2 2 -agg_nl 1 -solver 3 -mult_add 0 -add_Pmx 5 -add_end 2 > solvers.out.118
mpirun -np 8 ./ij -n 20 20 20 -P 2 2 2 -agg_nl 1 -solver 3 -mult_add 0 -ns 2 > solvers.out.119
mpirun -np 8 ./ij -n 20 20 20 -P 2 2 2 -agg_nl 1 -solver 3 -mult_add 0 -ns 1 > solvers.out.121
mpirun -np 8 ./ij -n 20 20 20 -P 2 2 2 -agg_nl 1 -solver 3 -mult_add 0 -ns 2 -rap 1 > solvers.out.122
mpirun -np 8 ./ij -n 20 20 20 -P 2 2 2 -agg_nl 1 -solver 3 -rlx 18 -ns 2 -rlx_coarse 18 -ns_coarse 2 > solvers.out.120

#nonGalerkin version
mpirun -np 8 ./ij -n 40 40 40 -P 2 2 2 -nongalerk_tol 1 0.03 > solvers.out.114
mpirun -np 8 ./ij -n 40 40 40 -P 2 2 2 -nongalerk_tol 3 0.0 0.01 0.05 > solvers.out.115

#RAP options
mpirun -np 8 ./ij -n 40 40 40 -P 2 2 2 -solver 3 -rap 0 > solvers.out.116
mpirun -np 8 ./ij -n 40 40 40 -P 2 2 2 -solver 3 -rap 1 > solvers.out.117

#
# MGR and MGR-PCG
#
# coarse grid solver checks (1-level MGR == AMG (or coarse grid solver))
# Also checks for keeping coarse nodes to coarsest level
# coarse grid size in output should be ~ mgr_num_reserved_nodes
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 0 -mgr_bsize 2 -mgr_num_reserved_nodes 0 > solvers.out.200
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 0 -mgr_bsize 2 -mgr_num_reserved_nodes 100 > solvers.out.201
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 1 -mgr_bsize 1 -mgr_num_reserved_nodes 0 > solvers.out.202
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 1 -mgr_bsize 1 -mgr_num_reserved_nodes 100 > solvers.out.203
# multi level MGR tests with different coarse grid type strategies
# Fix non C points to F points with different F-relaxation methods (single/multilevel F-relaxation)
# with/ without reserved coarse nodes
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 1 -mgr_bsize 2 -mgr_non_c_to_f 1 -mgr_frelax_method 0 -mgr_num_reserved_nodes 0 > solvers.out.204
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 1 -mgr_bsize 2 -mgr_non_c_to_f 1 -mgr_frelax_method 0 -mgr_num_reserved_nodes 100 > solvers.out.205
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 1 -mgr_bsize 2 -mgr_non_c_to_f 1 -mgr_frelax_method 1 -mgr_num_reserved_nodes 0 > solvers.out.206
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 1 -mgr_bsize 2 -mgr_non_c_to_f 1 -mgr_frelax_method 1 -mgr_num_reserved_nodes 100 > solvers.out.207
# Not fixed non C points to F points with different F-relaxation methods (single/multilevel F-relaxation)
# with/ without reserved coarse nodes
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 5 -mgr_bsize 2 -mgr_non_c_to_f 0 -mgr_frelax_method 0 -mgr_num_reserved_nodes 0 > solvers.out.208
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 5 -mgr_bsize 2 -mgr_non_c_to_f 0 -mgr_frelax_method 0 -mgr_num_reserved_nodes 100 > solvers.out.209
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 5 -mgr_bsize 2 -mgr_non_c_to_f 0 -mgr_frelax_method 1 -mgr_num_reserved_nodes 0 > solvers.out.210
mpirun -np 2 ./ij -solver 70 -mgr_nlevels 5 -mgr_bsize 2 -mgr_non_c_to_f 0 -mgr_frelax_method 1 -mgr_num_reserved_nodes 100 > solvers.out.211
# MGR-PCG tests
mpirun -np 2 ./ij -solver 71 -mgr_nlevels 0 -mgr_bsize 2 -mgr_non_c_to_f 0 -mgr_frelax_method 0 -mgr_num_reserved_nodes 0 > solvers.out.212
mpirun -np 2 ./ij -solver 71 -mgr_nlevels 1 -mgr_bsize 2 -mgr_non_c_to_f 0 -mgr_frelax_method 0 -mgr_num_reserved_nodes 0 > solvers.out.213

## Test relaxation methods 88 (L1 hybrid Symm. Gauss-Seidel with a convergent l1 term) and 89 (L1 Symm. hybrid Gauss-Seidel)
mpirun -np 4 ./ij -fromfile data/tucker21935/IJ.A -solver 1 -rlx 88 > solvers.out.404
mpirun -np 4 ./ij -fromfile data/tucker21935/IJ.A -solver 1 -rlx 89 > solvers.out.405
